IR LEDs and Optic Sensors

Innovations Embedded
Optical Sensors
 Remote
ROHM MarketingUSA
Controls
 Copiers
 Cell
Phones
Selection Guide
Optical Sensors
from ROHM Semiconductor
ROHM Infrared Optical Sensors operate
in the near infrared range (700nm
- 1400nm) of the electromagnetic
spectrum and are ideal for optical
sensing and optical communications
since IR is easy to implement as the
signal source. In this range, optical
sensors are used in industrial, consumer
and other applications for sensing
movement, position, proximity, ambient
light, speed (encoders) and direction of
motion.
In particular, ROHM’s product lineup
includes both through-hole and surface
mount parts in the following categories:

Infrared emitters

Infrared sensors/phototransistors

Photointerrupters

Tilt sensors

IrDA communication modules

Remote control module receivers
Optical wireless communication
uses IR data transmission for short
range applications such as computer
peripherals and PDAs. Infrared Data
Association (IrDA) standards are normally
used for these signals.
For optical communication, a modulated
IR light beam transmitted by an emitter
LED is received by a silicon photodiode/
transistor. Since IR does not penetrate
walls, it does not interfere with other
signals in indoor environments. This
makes IR technology the most commonly
used technique for remotely controlling
appliances.
The following is a list of some general
applications for Infrared PhotoOptics:

Office Automation (OA) equipment
such as copiers, fax machines and
printers

Vending machines

Amusement and gaming products

Home entertainment products

Medical / healthcare equipment.

Banking terminals such as ATMs

Testing equipment such as IC/LSI
testers, encoders and more
ROHM’s Product Focus
1.888.775.ROHM
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Optical Sensors
from ROHM Semiconductor
Important Benefits of ROHM Optical Sensors
 40 years of IR Sensor Product Advancement
For over 40 years, ROHM has been a leading solution provider of photooptic
sensors for consumers in the commercial and printer markets.
100%
Recent advances in GaAIAs high energy band gap technology from ROHM have
80%
p
resulted in the development of IR emitters with 800-950nm wavelength and fast
40%
response times.
LOSS
60%
Phototransistor (typical)
Emitter (typical)
20%
In addition, fully automated double molding THD and SMD packaging
production lines designed and developed by ROHM Semiconductor contribute
ROHM Emitter
0%
500
600
700
800
900
1000
1100
Wavelength (nm)
to high reliability and accurate mounting.
 Industry’s Widest Product Line
ROHM offers IR sensors including discrete IR LEDs and transistor sensors, fully
integrated remote control receivers, IrDA transmitters, photointerrupters and
customized sensor detection devices.
IR LEDs and transistor sensor products are offered in packages ranging
from standard T1, T11/4 packages to very small low profile (0.9mm) SMD
top view and side view packages, all featuring ambient light resistance with
wide or narrow viewing angles. These devices are suitable for remote control
transmitters, games, security, industrial applications and proximity detection.
Integrated products such as photointerrupters and reflectors are offered in
a variety of package sizes and different gap and slit widths. High accuracy
detection due to double molding technology makes them ideal for printer
applications, including paper/door detection and motor rotation/position
sensing.
Tilt sensors offered in small, low profile, low noise SMD packages are applicable
for orientation detection and image rotation in digital cameras, cell phones, tablet
computers and other handheld devices.
ROHM IR receivers and IrDA communication devices with integrated LSI/IR
components operate at low voltage and low power consumption, while internal
filters and shielding contribute to low noise operation and greater EMI resistance.
 Custom Product Development
ROHM is directly engaged with leading product manufacturers of consumer,
medical, industrial and security products. By utilizing proprietary technologies
and manufacturing expertise achieved over the years, ROHM is able to support
special designs and custom solutions ranging from low power IR chips to
custom packaging.
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Optical Sensors
Featured Products
See all IR Emitters
IR Emitters
 SIM-040ST / SIM-041ST
ROHM’s latest low profile lineup of IR emitters is
designed specifically with a peak wavelength of
3.1
870nm/850nm which is close to the peak wave
sensitivity of phototransistors (sensors), resulting in
2.25
higher efficiency output and up to 66% in energy
savings.
(1.2)
Applications


Light source for proximity sensors
Signal transmission
1.6
Important Features
0.65

Improved peak wavelength of 870nm/850nm

Compact and low profile (1.6mm x 3.1mm x
2.25mm)

High output (40mW typical)

Narrow viewing angle (±17.5 degrees)

Excellent temperature characteristics

Long life, high reliability
DESIGN
NOTE
0.65
1.8
1.95
0.15
0.15
66% More Efficient
100%
Relative Output
80%
With energy losses minimized, the
SIM-040ST infrared emitter is 66% more
efficient than traditional components.
LOSS
60%
Phototransistor (typical)
40%
Emitter (typical)
20%
ROHM Emitter
0%
600
500
700
800
900
1000
1100
Wavelength (nm)
Forward
Current (IF)
Part No.
Power
Dissipation (VR)
Operating
Temperature (TOPR)
Minimum Emitting
Strength (IE)
Forward
Voltage (VF)
Peak Emitting
Wavelength (OP)
Half Viewing
Angle (I1/2)
Response
Time (tr.tf)
mA
mW
°C
mW/sr
V
nm
deg
μs
SIM-040ST
100
180
-25 to 85
40
1.7
870
±20
0.1
SIM-041ST
100
180
-25 to 85
40
1.7
850
±20
0.1
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Optical Sensors
Featured Products
See all IR Emitters
IR Emitters
 SIM-030ST / SIM-031ST
ROHM’s latest low profile lineup of IR emitters is designed
specifically with a peak wavelength of 870nm/850nm
2.3
which is close to the peak wave sensitivity of
1.95
phototransistors (sensors), resulting in higher efficiency
output and up to 66% in energy savings.
(1.3)
(1.0)
Applications


0.9
Light source for proximity sensors
Signal transmission
0.4
Important Features
0.4
1.65

Improved peak wavelength of 870nm/850nm

Compact and low profile (0.9mm x 2.3mm x 1.95mm)

High output (30mW typical)

Narrow viewing angle (±17.5 degrees)

Excellent temperature characteristics

Long life, high reliability
DESIGN
NOTE
1.5
0.15
0.15
Ultra Low Profile (0.9mm)
At 0.9mm, the SIM-030ST is the thinnest
surface mount component of its kind. Similar
to the SIM-040ST, this chip is 66% more
efficient than traditional infrared emitters.
Forward
Current (IF)
Part No.
Power
Dissipation (VR)
Operating
Temperature (TOPR)
Minimum Emitting
Strength (IE)
Forward
Voltage (VF)
Peak Emitting
Wavelength (OP)
Half Viewing
Angle (I1/2)
Response
Time (tr.tf)
mA
mW
°C
mW/sr
V
nm
deg
μs
SIM-030ST
100
180
-25 to 85
30
1.7
870
±20
0.1
SIM-031ST
100
180
-25 to 85
30
1.7
850
±20
0.1
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Optical Sensors
Featured Products
See all IR Phototransistors/Sensors
IR Phototransistor/Sensor (top-view type)
 SCM-014TB
The SCM-014TB features high gain and collector
current. This top-view molded chip is designed for
automatic mounting and SMD reflow assemblies.
3
Emitter
mark
Applications
1.5

Automatic mounting

Photo sensing

Motion sensing
SMD reflow assembly

R0.8
2.2
2
2.2
0.9
Important Features
0.26

Remarkably high sensitivity

800nm peak wavelength

Outstanding ambient light filtering
1.2
1.0
E
Key
FACTS
C
Tolerance: ±0.2
Why IR and not Bluetooth?
IR Advantages
IR Disadvantages
1. Higher security: beam directionality helps ensure that data
1. Line of sight: transmitters and receivers must be almost
isn’t detected by nearby devices as it’s transmitted
2. High noise immunity: not as likely to have interference from
signals from other devices
directly aligned
2. Blocked by common materials: people, walls, plants, and
other objects can block transmission
3. Few international regulatory constraints
3. Short range: performance drops off with longer distances
4. Low power requirements: ideal for laptops, cell phones,
4. Light and weather sensitive: direct sunlight, rain, fog, dust,
and personal digital assistants
and pollution can affect transmission
5. Simple design implementation
5. Speed: data rate transmission is lower than typical wired
transmission
Collector
Power
Operating
Current (IC) Dissipation (PC) Temperature (TOPR)
Part No.
SCM-014TB
1.888.775.ROHM
Min. Photoelectric
Current (IC)
Collector-Emitter
Voltage (VCEO)
Peak Sensitivity
Wavelength (OP)
Max. Dark
Current
Response
Time (tr.tf)
mA
mW
°C
mA
V
nm
μA
μs
30
100
-30 to 85
0.5
32
800
0.5
10
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Optical Sensors
Featured Products
See all IR Phototransistors/Sensors
IR Phototransistor/Sensor (molded type)
 SML-810TB
The SML-810TB features high gain and collector
current. This molded type chip is ideal for reverse
mounting.
3.4
1.2
Applications


1.25
R 1.25
Reverse mounting
SMD reflow assembly
1.1
Important Features



Resist
0.28
Collector mark
Low profile
Accurate positioning
Saves board space
Terminal
1.8
C
E
B
DESIGN
NOTE
Tolerance: ±0.1
Ideal for Reverse Mounting
Top PCB
PCB
Reverse mounting is optimized for space
PCB
IR Sensor
saving, low profile applications.
Bottom PCB
Collector
Power
Operating
Current (IC) Dissipation (PC) Temperature (TOPR)
Part No.
SML-810TB
1.888.775.ROHM
Min. Photoelectric
Current (IC)
Collector-Emitter
Voltage (VCEO)
Peak Sensitivity
Wavelength (OP)
Max. Dark
Current
Response
Time (tr.tf)
mA
mW
°C
mA
V
nm
μA
μs
30
80
-30 to 85
2.3
32
800
0.5
10
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Optical Sensors
Featured Products
See all IR Phototransistors/Sensors
IR Phototransistor/Sensor and Emitter
itter (side
(side-view
view type)
 RPM-012PB Sensor
The RPM-012PB is an ultra-compact side-view chip
sensor. Ideal for high sensitivity optical remote control
applications when used in combination with the SIM012SB emitter.
 SIM-012SB Emitter
0.25
2-0.4
1
emitter compatible with the RPM-012PB sensor.
2
2
The SIM-012SB is an ultra-compact side-view chip
3
0.8
(1.15)
2
3
R1
Applications

Optical control equipment

Remote control devices
Important Features

High power lens

Ultra-compact surface mount package
(3mm x 3mm x 2mm)

Reflow possible
2
1
1
2
Internal connection diagram
(SIM-012SB)
Internal connection diagram
(RPM-012PB)
Emitter
Forward
Current (I F )
Part No.
SIM-012SB
Power
Dissipation (P
D)
Operating
Temperature (T
OPR
)
Minimum Emitting
Strength (IE)
Forward
Voltage (V F )
Peak Emitting
Wavelength (lP)
Half Viewing
Angle (f1/2)
Response
Time (tr.tf)
mA
mW
°C
mW/sr
V
nm
deg
μs
40
60
-30 to 85
0.9
1.2
950
12
1
Collector-Emitter
Voltage (V CEO )
Peak Sensitivity
Wavelength (lP)
Max. Dark
Current
Response
Time (tr.tf)
Sensor
Part No.
RPM-012PB
1.888.775.ROHM
Collector
Current (I C )
Power
Dissipation (P
mA
mW
°C
mA
V
nm
mA
μs
20
75
-30 to 85
0.56
32
800
0.5
10
C)
Operating
Temperature (T
OPR
)
Min. Photoelectric
Current (I C )
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Optical Sensors
Featured Products
See Photointerrupters (Transmission)
Photointerrupters (double mold type)
 RPI-0128
The RPI-0128 is a double mold type photointerrupter
in an ultraminiature surface mount package featuring
2-0.1
(0.34)
1.2 ±0.15
C0.3
+0.1
-0.05
(0.2)
0.45
(0.65)
0.05
0.2
1.8 ±0.1
0.6
A
A-A' Cross section
A'
2
0.6
3
1
1.4
Gate
(0.1)
1.6
6 ±0.1
beam detection.
Optical center
2.5 ±0.15
a 1.2mm gap width and accurate 0.2mm narrow
4
0.9
2
Internal connection diagram
Anode
Collector
 RPI-128
Cathode
Emitter
The RPI-128 is a double mold type photointerrupter
in an ultraminiature through hole package featuring a
1.2mm gap width and accurate 0.2mm narrow beam
detection.
2.5
1.6
A - A’
Applications



1.2
0.34
0.2
Digital cameras
Digital video cameras
Mini industrial sensors
A
0.5
0.2
0.1
(Optical
axis )
1.8
0.65
0.2
0.45
A’
1.5
0.1
Important Features

Ultra-compact (2.5mm x 1.6mm x 1.8mm)

1.2mm gap

Vertical Slit

Available in DIP and SMD packages
2
3
1
4
2
3
1
4
Emitter
Forward
Current (IF)
Part No.
RPI-0128/128
Power
Dissipation (PD)
Operating
Temperature (TOPR)
Forward
Voltage (VF)
Peak Emitting
Wavelength (OP)
Switching
Time
mA
mW
°C
V
nm
μs
30
80
-25 to 85
1.35
850
1
Sensor
Collector
Power
Operating
Current (IC) Dissipation (PC) Temperature (TOPR)
Part No.
RPI-0128/128
1.888.775.ROHM
Min. Photoelectric
Current (IC)
Collector-Emitter
Voltage
Peak Sensitivity
Wavelength (OP)
Max. Dark
Current
Response
Time (tr.tf)
mA
mW
°C
mA
V
nm
μA
μs
30
80
-25 to 85
1.00
30
800
0.1
10
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Optical Sensors
Featured Products
See Photointerrupters (Transmission)
Photointerrupter (double mold type)
ype)
 RPI-129BN
The RPI-129BN is a double mold type
photointerrupter in an ultraminiature through hole
package configured with horizontal slits featuring a
1.2mm gap width and accurate 0.3mm narrow beam
detection.
(4-0.3)
(4-0.35)
(4-0.2)
1.6 ±0.1
(2-0.1)
Cross-section A-A
C0.2
1.2mm gap
A
2.6 ±0.1
C0.4
0. 7
A
2-R0.3
0.4
0.5
0.15
1.5 ±0.3
Available in DIP and SMD packages
0.75 ±0.1
Horizontal slit

0.5 ±0.1

2.2 ±0.1
Optical center
(0.15)

3.6 ±0.15
1.2 ±0.15
Ultra-compact (3.6mm x 2.8mm x 3.3mm)
2.8 ±0.1

0.3
1
Important Features
(0.75)

Digital photography cameras
Digital vdeo cameras
Cell phones
(2-0.2)

(4-0.6)

3.3 ±0.1
Applications
(2.75)
(2)
1.6 ±0.1
2-0.35
Internal connection diagram
Collector
Emitter
Anode
Cathode
Emitter
Forward
Current (I F )
Part No.
RPI-129BN
Power
Dissipation (P
Operating
Temperature (T
D)
OPR
)
Forward
Voltage (V F )
Peak Emitting
Wavelength (lP)
Response
Time (tr.tf)
mA
mW
°C
V
nm
μs
50
80
-25 to 85
1.3
950
1
Sensor
Part No.
RPI-129BN
1.888.775.ROHM
Collector
Current (I C )
Power
Dissipation (P
mA
mW
°C
mA
V
nm
μA
μs
30
80
-25 to 85
0.95
30
800
0.5
10
C)
Operating
Temperature (T
OPR
)
Min. Photoelectric
Current (I C )
www.rohm.com/us
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Collector-Emitter
Voltage
Peak Sensitivity
Wavelength (lP)
Max. Dark
Current
Response
Time (tr.tf)
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Optical Sensors
Featured Products
See Photointerrupters (Transmission)
Photointerrupter (transmission type)
p )
 RPI-151
The RPI-151 is a two-phase photointerrupter
that integrates two sensors in a single package,
contributing to greater space savings.
4.6

Encoders
1.5
B A
2.8
Motor speed and direction detection
3.5

㸦Optical axis㸧
4
(0.9)
Applications
Important Features

Two sensors in one package

1.5mm gap
A'
5 min.
B'
A-A'
㸦1.0㸧
B-B'
㸦2.2㸧
㸦0.4㸧
㸦1㸧
㸦0.4㸧
DESIGN
NOTE
Two Sensors in One Package
Conventional
The dual-sensor configuration makes the
NEW RPI-151
+
RPI-151 ideal for detecting both the speed
and direction of a motor with high accuracy,
eliminating the need for a second sensor.
Problem 1
High phase shift due to variations in mount
position
No mounting variations
Problem 2
Saves space
Space required for 2 components
Emitter
Part No.
RPI-151
Forward
Current (IF)
Power
Dissipation (PD)
mA
mW
°C
50
70
-25 to 85
Operating
Temperature (TOPR)
Forward
Voltage (VF)
Peak Emitting
Wavelength (OP)
Switching
Time
V
nm
μs
1.2
950
1
Sensor
Collector
Power
Operating
Current (IC) Dissipation (PC) Temperature (TOPR)
Part No.
RPI-151
1.888.775.ROHM
Min. Photoelectric
Current (IC)
Collector-Emitter
Voltage
Peak Sensitivity
Wavelength (OP)
Max. Dark
Current
Response
Time (tr.tf)
mA
mW
°C
mA
V
nm
μA
μs
30
80
-25 to 85
0.25
30
800
0.5
10
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Optical Sensors
Featured Products
See Photointerrupters (Transmission)
Photointerrupter (transmission type)
 RPI-2501
The RPI-2501 is a high accuracy photointerrupter
designed as a lower-cost alternative to conventional
products.
Emitter
side
Receiver
side
first resin
Applications

Printers
Important Features
second resin

Built-in mini CT connector
High accuracy narrow slit design (0.4mm)

High collector output current

850nm emitter wavelength

Double-mold package
Compatible with connector types 353293-3 and
353908-3 (26-28 AWG)


DESIGN
NOTE
Double-mold construction contributes to higher outptut.
25% Improved Detection Accuracy (0.4mm)
Competitor (Slit: 0.7mm)
ROHM (Slit: 0.5mm)
The RPI-2500’s narrow slit design of 0.5mm
is suitable for a wide range (0.8 - 1.6mm) to
PCB thickness asemblies.
120%
Relative Collector Current (%)
Relative Collector Current (%)
120%
Condition: IF=10mA, VCE=5V
100%
80%
0.8 mm
60%
40%
20%
0%
Condition: IF=10mA, VCE=5V
100%
80%
0.6 mm
60%
40%
20%
0%
0
1
2
3
4
5
6
0
1
Distance: d(mm)
2
3
4
5
6
Distance: d(mm)
Emitter
Forward
Current (I F )
Part No.
Power
Dissipation (P
Operating
Temperature (T
D)
OPR
Forward
Voltage (V F )
)
Peak Emitting
Wavelength (lP)
Switching
Time
mA
mW
°C
V
nm
μs
50
80
-25 to 85
1.3
850
1
RPI-2501
Sensor
Part No.
RPI-2501
1.888.775.ROHM
Collector
Current (I C )
Power
Dissipation (P
mA
mW
°C
mA
V
nm
μA
μs
10
80
-25 to 85
0.5
30
800
0.5
10
C)
Operating
Temperature (T
OPR
)
Min. Photoelectric
Current (I C )
www.rohm.com/us
11
Collector-Emitter
Voltage
Peak Sensitivity
Wavelength (lP)
Max. Dark
Current
Response
Time (tr.tf)
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Optical Sensors
Featured Products
See Photointerrupters (Reflective)
Photointerrupter (reflective
e type)
 RPR-220C1
The RPR-220C1 is a reflective type photointerruptor
ruptor
with a focal length of 6mm and a wavelength of
940nm.
Through hole
6.4
2.8
0.35
1.4
6.5
Important Features
940nm wavelength

Plastic lens yields high sensitivity

Built-in visible light filter miinimizes
stray light influence

Light & compact

Excellent reflection sensitivity (3-6mm)
(3.2)

0.5±0.1
2.5±0.1
Min.20
4-
(0.6)
4-0.6
(1)

4-φ1.0
Printers
CD players
Gaming machines
(0.6)

2.5
4.9
Applications

2.8
.2
2
2-φ
(2.8)
(2.5)
Reflector
d = 6mm
Anode
Collector
Cathode
Emitter
Reflective
photointerrupter
Notes:
1. Unspecified tolerance
shall be ±0.2 .
2. Dimension in parenthesis are
show for reference.
Emitter
Part No.
RPR-220C1
Forward
Current (IF)
Power
Dissipation (PD)
mA
mW
°C
50
80
-25 to 85
Operating
Temperature (TOPR)
Forward
Voltage (VF)
Peak Emitting
Wavelength (OP)
Switching
Time
V
nm
μs
1.34
940
1
Sensor
Collector
Power
Operating
Current (IC) Dissipation (PC) Temperature (TOPR)
Part No.
RPR-220C1
1.888.775.ROHM
Min. Photoelectric
Current (IC)
Collector-Emitter
Voltage
Peak Sensitivity
Wavelength (OP)
Max. Dark
Current
Response
Time (tr.tf)
mA
mW
°C
mA
V
nm
μA
μs
30
80
-25 to 85
0.08
30
800
0.5
10
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12
CNA11003_sg
Optical Sensors
Featured Products
See Photointerrupters (Reflective)
Photointerrupters (reflective type)
 RPR-220UC30
The RPR-220UC30 is a reflective type
photointerrupter with a focal length of 6mm and a
wavelength of 630nm (red light).
2.8
6.4
2.8
Through hole
2.2
2- φ
4.9
2.5
 RPR-220PC30N
4- φ1.0
The RPR-220PC30N is a reflective type
photointerruptor with a focal length of 6mm and a
0.35
6.5
1.4
wavelength of 470nm (blue light).
Applications


Printers
Medical
Games
Important Features
4- 0.5 ±0.1
(2.5)
(2.8)

Plastic lens yields high sensitivity

Built-in visible light filter minimizes
stray light influence

4-0.6
2.95 ±0.5

Anode
Collector
Cathode
Emitter
Light & compact
Reflector
Notes:
1. Unspecified tolerance
shall be ±0.2 .
2. Dimension in parenthesis are
show for reference.
d = 6mm
Reflective
photointerrupter
Emitter
Forward
Current (IF)
Power
Dissipation (PD)
Part No.
Operating
Temperature (TOPR)
Forward
Voltage (VF)
Peak Emitting
Wavelength (OP)
Switching
Time
mA
mW
°C
V
nm
μs
RPR-220UC30
30
80
-25 to 85
2
630
1
RPR-220PC30N
30
80
-25 to 85
2
470
1
Sensor
Collector
Power
Operating
Current (IC) Dissipation (PC) Temperature (TOPR)
Part No.
Min. Photoelectric
Current (IC)
Collector-Emitter
Voltage (VCEO)
Peak Sensitivity
Wavelength (OP)
Max. Dark
Current
Response
Time (tr.tf)
mA
mW
°C
mA
V
nm
μA
μs
RPR-220UC30
30
80
-25 to 85
0.08
30
800
10
10
RPR-220PC30N
30
80
-25 to 85
0.08
30
800
10
10
1.888.775.ROHM
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13
CNA11003_sg
Optical Sensors
Featured Products
See all Tilt Sensors
Tilt Sensor (4-way detection)
 RPI-1040
The RPI-1040 is an optical surface mount 4-way
3.1
detection sensor with one IR LED and two
fall in a variety of applications.
Applications




Pattern
Cell phones
Digital cameras
Portable audio
Irons
Heating Fans
2.9
1.7
.7
0.6
.6

0.8
3.1
phototransistors for detecting orientation, rotation, or
0.9
2.9
Important Features

Orientation Detection
Industry’s thinnest package (3.1mm x 3.1mm x
0.8mm thick)
Filming
Video Devices
Previewing
(Mobile Phones,
Digital Cameras)

Silent, noise-free operation

Shielded from vibration, magnetic, and RF noise

High precision detection
Simplify preview for image
correction (i.e., autofocus,
white balance adjustment)
DESIGN
NOTE
79% Less Volume
(a) RPI-1040 integrates an IR LED, 2
phototransistors, and a light shield, into
a single package.
(b) The optimized configuration reduces
volume and area by 79% and 37% over
conventional tilt sensors.
Volume and area reduced 79% and 37%, respectively, compared to
conventional products
Phototransistor 1 Infrared LED
Area
reduced
Volume
reduced
37%
79%
Light Shield
Conventional
Product
Phototransistor
stor 2
Conventional
Product
RPI-1040
(a)
RPI-1040
((b)
b)
Emitter
Forward
Current (IF)
Power
Dissipation (PD)
mA
mW
°C
V
nm
μs
50
70
-25 to 85
1.1
950
10
Part No.
RPI-1040
Operating
Temperature (TOPR)
Forward
Voltage (VF)
Peak Emitting
Wavelength (OP)
Switching
Time
Sensor
Collector
Power
Operating
Current (IC) Dissipation (PC) Temperature (TOPR)
Part No.
RPI-1040
1.888.775.ROHM
Min. Photoelectric
Current (IC)
Collector-Emitter
Voltage (VCEO)
Peak Sensitivity
Wavelength (OP)
Max. Dark
Current
Response
Time (tr.tf)
mA
mW
°C
mA
V
nm
μA
μs
30
80
-25 to 85
0.05
30
800
0.5
10
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14
CNA11003_sg
Optical Sensors
Featured Products
See all IrDA Communication Modules
IrDA Communication Modules
 RPM871
The RPM871 is a micro infrared module based
on the IrDA1.2 standard. The SIR-compatible
atible unit
1
operates at a distance of 60cm. It contains
ns an
7.6
5.6
R1.1
infrared LED, a PIN photodiode and LSI circuitry in
R1.0
3.8
2
an ultra-compact, 8-pin package. In addition
tion to low
1
power consumption (73μA typical), the module has a
Pin PD
built-in power down function that reducess the current
LED
0.78
0.76

0.8
Applications
Cell phones, PDAs
1
0.37±0.10
0.95
P0.95 × 7=6.65
2.49
2.72
consumption to 0.01μA (typical).
8
Important Features






Excellent ambient light detection with superior
resistance to electromagnetic noise
Ultra-compact package saves space
Low power consumption: 73μA (typ.)
Broad power supply voltage range: 2.6V to 3.6V
Integrated power down function results in a
standby circuit current of only 0.01μA (typ.)
Variable transmission distance range via constant
LED load resistance (60cm max.)
Available in top view and side view configurations
(RXD out put)
Input Noise Capacity Range
[Vp-p]

30
25
20
15
H
10
S
5
0
RPM870
10
100
1000
10000
100000
Noise Frequency [KHz]
DESIGN
NOTE
1.888.775.ROHM
Anti-Magnetic Noise Characteristics
www.rohm.com/us
15
CNA11003_sg
Optical Sensors
Featured Products
See all Remote Control Receiver Modules
Remote Control Receiver Modules
 RPM5540 / RPM5340
RPM5540 and RPM5340 are ultra-compact
act surface
mount remote controller receiver modules ideal for
AV equipment (i.e. TVs, digital cameras, car
ar systems,
gaming devices, toys), home electronics (e.g.
e.g. air
7.6
2.0
3.0± 0.1
Applications
4.0
Home electronics, including TVs, DVD players,
air conditioners, audio systems, and industrial
equipment
8.0
5.6
Important Features


0.6± 0.1
0.15± 0.1

P0.95×7=6.65
0.75± 0.1

0.37± 0.1
0.68
0.2

Ultra-compact package (1/16th the size of
existing products)
Long effective distance and wide angle
equivalent to existing products
Low current consumption (300 - 950 μA)
Supports Pb-free soldering
Side-view type also available (H14)
Compatible with 3V and 5V operation
0.65± 0.1

2.49
2.72
2.8
0.56

1.2
2.4
3.0
MOUNTING CENTER
0.6±
conditioners, lights, fans), and industrial applications.
pplications.
NOTE
TOLERANCE : ± 0.2mm
COPLANARITY : 0.1mmMAX
UNIT : mm
ETH658
DESIGN
NOTE
Requires Only 1/16th the Volume of THDs
The RPM5540 and RPM5340 require 75% less volume than
comparable Through Hole Devices (THDs).
50mm3
12.5mm
2.2mm
800mm3
THD Type
1.888.775.ROHM
SMD Type
THD Type
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16
SMD Type
CNA11003_sg
ROHM Semiconductor USA, LLC
6815 Flanders Drive, Suite 150
San Diego, CA 92121
www.rohm.com/us | 1.888.775.ROHM
NOTE: For the most current product information, contact a ROHM sales representative in your area.
ROHM assumes no responsibility for the use of any circuits described herein, conveys no license under any patent or other right, and
makes no representations that the circuits are free from patent infringement. Specifications subject to change without notice for the purpose
of improvement.
The products listed in this catalog are designed to be used with ordinary electronic equipment or devices (such as audio visual equipment,
office-automation equipment, communications devices, electrical appliances and electronic toys). Should you intend to use these products
with equipment or devices which require an extremely high level of reliability and the malfunction of which would directly endanger human
life (such as medical instruments, transportation equipment, aerospace machinery, nuclear-reactor controllers, fuel controllers and other
safety devices), please be sure to consult with our sales representative in advance.
© 2011 ROHM Semiconductor USA, LLC. Although every effort has been made to ensure accuracy, ROHM accepts no responsibility for
errors or omissions. Specifications and product availability may be revised without notice. No part of this document represents an offer or
contract. Industry part numbers, where specified, are given as an approximate comparative guide to circuit function only. Consult ROHM
prior to use of components in safety, health or life-critical systems. All trademarks acknowledged.
CNA11003_sg